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EP0099327A1 - Reifenvulkanisierpresse - Google Patents

Reifenvulkanisierpresse Download PDF

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Publication number
EP0099327A1
EP0099327A1 EP83730068A EP83730068A EP0099327A1 EP 0099327 A1 EP0099327 A1 EP 0099327A1 EP 83730068 A EP83730068 A EP 83730068A EP 83730068 A EP83730068 A EP 83730068A EP 0099327 A1 EP0099327 A1 EP 0099327A1
Authority
EP
European Patent Office
Prior art keywords
frame
die half
vulcanizing press
upper frame
working cylinder
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP83730068A
Other languages
English (en)
French (fr)
Other versions
EP0099327B1 (de
Inventor
Takaomi Nagasaki Shipyard & Engine Works Hanyu
Nobuhiko Nagasaki Shipyard & Engine Works Irie
Akira Nagasaki Shipyard & Engine Works Hasegawa
Teruaki Nagasaki Shipyard & Engine Works Muta
Katsuyoshi Nagasaki Shipyard & Engine Sakaguchi
Toshihisa Nagasaki Shipyard & Engine Ikeda
Yoshiharu Nagasaki Shipyard & Engine Itayama
Akira Nagasaki Shipyard & Engine Works Nakahara
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
OFFERTA DI LICENZA AL PUBBLICO
Original Assignee
Mitsubishi Heavy Industries Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP57121572A external-priority patent/JPS5912827A/ja
Priority claimed from JP12260682A external-priority patent/JPS5912828A/ja
Priority claimed from JP12784782A external-priority patent/JPS5919139A/ja
Application filed by Mitsubishi Heavy Industries Ltd filed Critical Mitsubishi Heavy Industries Ltd
Publication of EP0099327A1 publication Critical patent/EP0099327A1/de
Application granted granted Critical
Publication of EP0099327B1 publication Critical patent/EP0099327B1/de
Expired legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29DPRODUCING PARTICULAR ARTICLES FROM PLASTICS OR FROM SUBSTANCES IN A PLASTIC STATE
    • B29D30/00Producing pneumatic or solid tyres or parts thereof
    • B29D30/06Pneumatic tyres or parts thereof (e.g. produced by casting, moulding, compression moulding, injection moulding, centrifugal casting)
    • B29D30/0601Vulcanising tyres; Vulcanising presses for tyres
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C35/00Heating, cooling or curing, e.g. crosslinking or vulcanising; Apparatus therefor

Definitions

  • the present invention relates to a tire vulcanizing press and more particularly to an improved hydraulic tire vulcanising press of the type including an upper frame, a lower frame and both side frames, wherein a die comprising an upper die half and a lower die half is tightly closed by means of a raising and lowering table fixedly secured onto the upper die half, said raising and lowering table being adapted to be raised up or lowered with the aid of a hydraulic press.
  • a hitherto known hydraulic tire vulcanizing press is generally constructed so that a raising and lowering table has a working stroke of about 1,000 mm in case of tires for passenger car or about 2,000 mm in case of tires for truck, bus or the like vehicle so as to allow a green tire to be vulcanized to be loaded on the lower die half and therefore a hydraulic cylinder for tightly closing both the die halves is designed to have a correspondingly long working stroke.
  • the present invention has been made with the foregoing problems in mind and its object resides in providing an improved tire vulcanizing press which assures the minimized die opening by means of mechanical arrangement.
  • Another object of the present invention is to provide an improved vulcanizing press in which vulcanizing operation is carried out safely.
  • Another object of the present invention is to provide an improved vulcanizing press which can be manufactured at an inexpensive manufacturing cost.
  • a tire vulcanizing press of the early mentioned type which is characterized in that the raising and lowering table has a vertically extending member fixedly mounted thereon, a working cylinder is secured to the bottom of the upper frame and a distance plate is disposed between the working cylinder and the vertically extending member in such a manner as to move away from the operative position in the vulcanizing press to the inoperative position located outward of the latter and vice versa.
  • This characterizing features of the invention assures that vulcanizing operation is carried out with a tightly closed die onto which depressing force is transmitted from the working cylinder via the distance plate, the vertically extending member and the raising and lowering table.
  • the working cylinder can be designed to have a very short working stroke by which required depressing force can be reliably transmitted to the die without any fear of exceeding a certain die opening specified for assuring safe vulcanizing operation.
  • any excessively wide die opening can be reliably prevented by means of a combination of the distance plate and the vertically extending member, when there occurs pressure reduction in the working cylinder due to failure, injury or the like.
  • vulcanizing medium does not leak from the interior of the die.
  • the working cylinder is designed to have a very short working stroke owing to the arrangement of the vertically extending member and the distance plate as described above, tight closing can be precisely achieved for the die within a very short period of time.
  • a tire vulcanizing press of the early mentioned type which is characterized in that a working cylinder and a spacer are arranged between the upper frame and the upper die half, either of said working cylinder and said spacer being adapted to move to the position located outward of the side frame so as to assure that the upper die half is displaced upward without any hindrance encountered, and a die thickness adjusting means is arranged on either of the upper frame and-the lower frame.
  • a tire vulcanizing press of the early mentioned type which is characterized in that in addition to the working cylinder and the spacer a distance plate is arranged between the upper frame and the upper die half, said distance plate being adapted to move to the position located outward of the side frame so as to assure that the upper die half is displaced upward without any hindrance encountered, and a die thickness adjusting means is arranged on either of the upper frame and the lower frame.
  • a tire vulcanizing press of the earily mentioned type which is characterized in that a working cylinder and a spacer are arranged between the upper frame and the upper die half, said working cylinder being adapted to move to the position located outward of the side frame so as to assure that the upper die half is displaced upward without any hindrance encountered and said spacer being fixedly mounted on the lower die half in such a manner that its working height can be adjusted in dependence on a thickness of a die to be mounted on the lower frame.
  • a tire vulcanizing press of the early mentioned type which is characterized in that in addition to the working cylinder and the spacer a distance plate is arranged between the upper frame and the upper die half, said distance plate being adapted to move to the position located outward of the side frame so as to assure that the upper die half is displaced upward without any hindrance encountered and said spacer being fixedly mounted on the lower die half in such a manner that its working height can be adjusted in dependence on a thickness of a die to be mounted on the lower frame.
  • Another advantageous feature of the vulcanizing press is that space required for displacement of the working cylinder can be substantially reduced, because the working cylinder having a short height is adapted to be displaced away from the operative position in the vulcanizing press to the inoperative position located outward of the side frame thereof and vice versa by turning movement.
  • the distance plate is arranged in the above-described manner so as to be displaced away from the operative position in the vulcanizing press to the inoperative position located outward of the side frame thereof and vice versa by turning movement, there occurs very few damage or injury on hydraulic hoses through which hydraulic oil flows, compared with the case where a working cylinder having a long height is required to be displaced in the same manner as described above. Owing to the arrangement that a distance plate having a thin thickness is adapted to be displaced it is assured that space required for displacement of the distance plate can be substantially reduced.
  • a vulcanzing press includes an upper frame 1 and a lower frame 2 both of which are integrally connected to one another by way of side frames 3 so that a lower die half 4 constituting a part of a die is firmly mounted on said lower frame 2 and an upper die half 5 constituting another part of the same is fixedly secured to a raising and lowering table 6.
  • the latter has a vertically extending member 7 fixedly connected thereto and the upper die half 5 is adapted to move up away from the lower die half 4.
  • a working cylinder 8 and a distance plate 9 are arranged between the upper frame 1 and the vertically extending member 7 of the raising and lowering table 6 so that depressing force given by the working cylinder 8 is transmitted to the die by way of the distance plate 9, the vertically extending member 7 and the raising and lowering table 6.
  • the working cylinder 8 is fixedly secured to the upper frame 1 at the predetermined position, for instance, at the lower side thereof and the central part of the working cylinder 8 has the configuration of a doughnut with a through hole formed therein.
  • the through hole at the central part of the working cylinder 8 has an inner diameter which is dimensioned larger than the outer diameter of the vertically extending member 7 on the raising and lowering table 6 and moreover the fitting portion of the working cylinder 8 located at the upper frame side is also formed with a through hole.
  • the distance plate 9 has an outer diameter which is dimensioned larger than the inner diameter of the through hole of the working press 8 and it is turnably supported from the upper frame 1 or the side frame 3 as illustrated in Fig. 2 so that it moves reci p rocably between the first position located outward of the vulcanizing press and the second position located inward of the same.
  • the vulcanizing press in accordance with the first embodiment is constructed in the above-described manner so that a green tire to be vulcanized is loaded on the lower die half 4 by means of a green tire loading device (not shown) and an assembly of the raising and lowering table 6, the thermal insulating plate, the upper hot plate and the upper die half 5 is then caused to move down by allowing a rod 11 of the auxiliary hydraulic cylinder 10 to expand downward until said assembly is placed on the lower die half 4.
  • a hydraulic or pneumatic cylinder 12 is actuated so as to allow its rod 13 to expand outward as illustrated in Fig.
  • the distance plate 9 is displaced from the first position located outward of the vulcanzing press to the second position located inward of the same and thereby it is disposed between the vertically extending member 7 on the lowered table 6 and the working cylinder 8.
  • the working cylinder 8 is then actuated by hydraulic pressure so as to allow the . rod 11 to expand downward, the upper die half 5 is tightly depressed on the lower die half 4 by way of the distance plate 9, the vertically extending member 7 and the raising and lowering table 6.
  • the vulcanizing press of the invention is constructed in the above-described manner, it is assured that the distance plate 9 is correctly located between the uppermost end of the vertically extending member 7 on the raising and lowering table 6 and the lowermost end of the r od of the working cylinder 8 before a green tire is vulcanized while the raising and lowering table 6 is kept lowered. Further, a stroke of the working cylinder 8 can be determined to such a very short working stroke that required depressing force is transmitted to the die. Thus, both the upper and lower die halves 4 and 5 can be tightly closed within a very short period of time by means of the distance plate 9, the vertically extending member 7 and the raising and lowering table 6 by operating the working cylinder 8.
  • the working cylinder 8 is designed to have a very short working stroke, it is possible to confine die opening between both the upper and lower die halves 4 and 5 within an allowable extent when there occurs decrease in hydraulic pressure due to malfucntion, failure or the like.
  • the doughnut type working cylinder 8 in the foregoing embodiment is replaced with a plurality of working cylinders 16 fixedly mounted on the upper frame 1, said working cylinders 16 including a rod 17 respectively of which lower end part is secured to a doughnut-shaped plate 15 with a through hole formed thereon of which inner diameter is dimensioned larger than the outer diameter of the vertically extending member 7.
  • the distance plate 9 in the foregoing embodiment is replaced with three distance plates 9-1, 9-2 and 9-3 each of which is operatively connected to a shaft 18 stationarily disposed at the predetermined position on the upper frame 1 or the side frame 3.
  • a coned disc spring 21 is disposed between the flange portion of the shaft 18 and the boss 20-1 of the arm 19-1 extending from the distance plate 9-1, between both the bosses 20-1 and 20-2 of the arms 19-1 and 19-2 extending from the distance plates 9-1 9-2, between both the bosses 20-2 and 20-3 of the arms 19-2 and 19-3 extending from the distance plates 9-2 and 9-3 between the boss 20-3 of the arm 19-3 extending from the distance plate .9-3 and the flange portion of the shaft 18 respectively.
  • the arrangement of the four cones disc springs 21 makes it possible to hold the distance plates 9-1, 9-2 and 9-3 in the floated state without any occurance of interference between the adjacent distance plates, between the distance plate and the annular plate and between the distance plate and the vertically extending member.
  • Each of the bosses 20-1, 20-2 and 20-3 includes a driving arm as identified with reference numerals 22-1, 22-2 and 22-3 respectively and each of said driving arms 22-1, 22-2 and 22-3 is operatively connected to an actuating cylinder represented by reference numerals 23-1, 23-2 and 23-3 in the following manner respectively, said actuating cylinders 23-1, 23-2 and 23-3 being movably mounted on the upper frame 1 or the side frame 3.
  • the driving arms 22-1, 22-2 and 22-3 are operatively connected to the corresponding actuating cylinders 23-1, 23-2 and 23-3 by way of rods 24-1, 24-2 and 24-3 and flexible joints 25 and the actuating cylinders 23-1, 23-2 and 23-3 are also operatively connected to the upper frame 1 or the side frame 3 by way of flexible joints 25 whereby each of the actuating cylinders 23-1, 23-2 and 23-3 is adapted to move in response to turning movement of the driving arms 22-1, 22-2 and 22-3 and axial displacement of the bosses 20-1, 20-2 and 20-3 due to deflection of the coned disc springs 21.
  • the vulcanizing press in accordance with the second embodiment has the following advantageous fe communicating in addition to those in the first embodiment. Specifically, any number of distance plates selected from the three distance plates 9-1, 9-2 and 9-3 are put in use by combined operations of the actuating cylinders 23-1, 23-2 and 23-3 so as to accomodate to variation in thickness of a die.
  • two distance plates 9-2 and 9-3 are caused to assume the position located in vertical alignment with the die while distance plate 9-1 is held at the first position located outward of the vulcanizing press and after it is confirmed that correct alignment is achieved, the working cylinders 16 are operated until a combination of the distance plates 9-2 and 9-3 comes in abutment against the vertically extending member 7 and thereby required depressing force is transmitted to the die.
  • the distance plates 9-2 and 9-3 are displaced downward by an appreciable distance but there is no fear of causing hindrance to the operation owing to the arrangement of the flexible joints 25 for the actuating cylinders 23-2 and 23-3.
  • a stroke of the working cylinders 16 can be determined shorter than in the first embodiment and an amount of die opening in the event of failure, injury or the like caused on a die can be reduced so that quick response to variation in thickness of a die is assured.
  • the vulcanizing press includes a combination of a distance plate 9-1 (turnably supported on the upper frame 1 or the side frame 3 in the same manner as in the first and second embodiments) and a group of distance plates 9', said distance plate 9-1 being in use when a die to be mounted has the maximum thickness and said group of distance plate 9' being additionally used when a die has a thickness dimensioned between the maximum and minimum ones.
  • the group of distance plates 9' is constructed by nine distance plates 9'-1 to 9'-9 each of which is turnably supported on a shaft 30 attached to an arm 29. Further, another arm 31 is turnably fitted onto the shaft 30 and a permanent magnet 32 is fixedly secured to the one end of said arm 31 (see Fig. 7).
  • the permanent magnet 32 has a length as measured in the vertical direction which is dimensioned so as to attract all the distance plates 9'-1 to 9'-9 when they are located in the same positional phase.
  • a rod of an actuating cylinder 33 which is swingably supported on the arm 29.
  • another actuating cylinder 34 is fixedly secured to the arm 29 in parallel to the shaft 30 in such a manner that when a rod 34a of said actuating cylinder 34 is caused to project upward, it enter a hole 29a formed on the upper part of the arm 29 and while all the distance plates 9'-1 to 9'-9 are superimposed one above another at the position located in alignment with the vertically extending member 7, it extends through all holes 35-1 to 35-9 formed on the distance plates 9' -1 to 9'-9.
  • the distance plate 9-1 is located outward of the vulcanizing press.
  • the distance plates 9'-1 to 9'-9 are also located outward of the vulcanizing press.
  • the raising end lowering table 6 is disconnected from the under die half 5 and it is then raised up. Since there exists no obstacle above the vertically extending member 7, the latter is raised up until it extends into the through hole on the upper frame 1.
  • the lower die half 4 is disconnected from the lower frame 2 and both the upper and lower die halves 4 and 5 are removed from the vulcanizing press. Now, a new die is ready to be placed on the lower frame 2.
  • the lower die half 4 After completion of correct centering the lower die half 4 is firmly fixed to the lower die half 2 and the raising and lowering table 6 is then lowered so that it is fixed to the upper die half 5.
  • the rod 34a is caused to retract and thereby they are ready to turn.
  • the cylinder 33 is actuated to turn the arm 31 until the permanent magnet 32 at the free end of the arm 31 attracts all the distance plates 9'-1 to 9'-9. Thereafter, the cylinder 33 is actuated again to turn the arm 31 further until the group of di-tance plates 9'-1 to 9'-9 assume the same positional phase as that of the distance plate 9-1. While this positional phase is maintained, the arm 29 is caused to turn into the vulcanizing press.
  • the distance plates 9'-5 to 9'-9 which are inhibited from further movement by means of the vertically extending member 7 are released from attractive force of the permanent magnet 32 whereby they are left behind as they abut against the vertically extending member 7.
  • the other distance plates 9'-1 to 9'-4 are turned together with the arm 29 until the positional limit located inside the vulcanizing press is reached.
  • the cylinder 34 is actuated so as to allow the rod 34a to project upward so that the latter extends through the holes 35-1 to 35-4 on the distance plates 9'-1 to 9'-4 to hold them immovable relative to the arm 29 and the residual distance plates 9'-5 to-9'-9 are held immovable relative to the arm 29 by means of the rod 34a and the stopper 36 with the distance plates 9'-5 to 9'-9 disposed therebetween.
  • the distance plate 9-1 and the group of distance plates 9'-1 to 9'-4 interposed between the working cylinder 8 and the vertically extending member 7 serve as a working distance plate and depressing force of the working cylinder 8 is transmitted to a new die to be tightly closed by way of the group of distance plates 9-1 and 9'-1 to 9'-4, the vertically extending member 7 and the raising and lowering table 6.
  • each of the three embodiments has been described with respect to the arrangement that a single vertically extending member 7 is disposed at the central position of the vulcanizing Dress. Alternatively, a plurality of vertically extending members may be disposed. Further, the second embodiment has been described with respect to the arrangement that the-distance plates are brought to the position in vertical alignment with the die by turning movement about a support shaft. Alternatively, a working height of distance plates may be selectively determined by rotary movement of distance plates disposed one above another on their circular tracks of which radius is defined by the center of a die and the axis of a support shaft located outward of the vulcanizing press. Moreover, a working cylinder in both the first and third embodiments may be replaced with a plurality of working cylinders in the second embodiment and vice versa.
  • the vulcanizing press is designed in a frame type tire vulcanizing press including an upper frame 101, a lower frame 102 and side frames 103 for integrally connecting said upper and lower frames 101 and 102 to one another.
  • a lower die half 104 is fixedly mounted on the lower frame 102 and an upper die half 105 is fixedly secured to the raising and lowering table 106 in such a manner that said upper die half 105 is displaced away from or toward said lower die half 104.
  • a working cylinder 107 and a spacer 108 are disposed between the upper frame 101 and the raising and lowering table 106.
  • a die thickness adjusting means 110 in accordance with this embodiment is constructed in the following manner.
  • the die thickness adjusting means comprises a female threaded sleeve 111 rotatably supported on the upper frame 101, a gear wheel 112 fixedly attached to the upper end part of said female threaded sleeve 111, a pinion 114 meshing with said gear wheel 112 adapted to be rotated by means of a driving device 113 which is firmly mounted at the predetermined position on the upper frame 101, a male threaded rod 116 in screw engagement with the female threaded sleeve 111, said male threaded rod 116 carrying a pair of arms 115 at the lower end part thereof, rods 117 extending upward from the free end of said arms 115 in parallel to the male threaded rod 116 for the purpose of inhibiting rotataion of the latter and guide bearings 118 fitted to the upper frame 101 at the predetermined position thereof to slidably bear said rods 117 therethrough.
  • the working cylinder 107 is fixedly secured to the bottom of the die thickness adjusting means 110 and includes an actuating rod projecting downward therefrom.
  • the raising and lowering table 106 is adapted to move up and down along the side frames 103 while it is guided with the aid of a suitable means, and the spacer 108 is swingably supported above the raising and lowering table 106.
  • the swinging portion for the snacer 108 is held in the floated state in such a manner as to move up and down in the axial direction whereby the spacer 108 including the swinging portion is displaceable by a certain distance in the axial direction relative to the vulcanizing press.
  • the raising and lowering table 106 is lowered so that the upper die half 105 is placed on the lower die half 104.
  • the spacer 108 held at the waiting position located outward of the side frame 103 is then caused to enter the central part of the vulcanizing press and thereafter the male threaded rod 116 is lowered by operating the driving device 113 until the rod of the working cylinder 107 comes in abutment against the uppermost end of the spacer 108.
  • the driving device 113 there disappears clearance above the spacer 108 as well as below the same.
  • the working cylinder 107 is actuated to generate the predetermined depressing force, it is transmitted to the upper die half 105 via the spacer 108.
  • an amount of die opening between both the upper and lower die halves 104 and 105 can be limited within a very short distance in the event of unexpected reduction of hydraulic pressure in the working cylinder 107 during vulcanization, resulting in prevention of leakage of vulcanizing medium therefrom assured.
  • the working cylinder 107 is fixedly secured to the die thickness adjusting means 110, whereas in this embodiment the working cylinder 107 is supported swingable relative to the die thickness adjusting means 110.
  • the spacer 108 is fixedly mounted on the raising and lowering table 106 and the male threaded rod 116 disposed above the raising and lowering table 106 on an extension line extending upward therefrom is formed with a hole of which inner diameter is dimensioned larger than the outer diameter of the spacer 108.
  • the working cylinder 107 is dimensioned in outer diameter larger than the inner diameter of said hole on the male threaded rod 116 and moreover it is swingably supported by means of the die thickness adjusting means 110 as illustrated in Fig. 10.
  • one of the rods 117 attached to the arms 115 to prevent the male threaded rod 116 from being rotated is made hollow so that a rod 119 extends through the hollow part of the rod 117 to carry a support arm 120 for the working cylinder 107 at the lowermost end thereof.
  • the support arm 120 is displaceably fitted onto the rod 119 in such a manner as to axially move by a distance substantially equal to the clearance between the upper surface of the working cylinder 107 and the lower end of the male threaded rod 116.
  • the rod 119 has a flange formed at the middle part thereof so that it is held by means of the hollow rod 117 with said flange being placed on the upper end thereof.
  • the rod 119 is formed with an axially extending key groove 119a at the upper end part thereof to which a key 121 is fitted whereby a gear wheel 122 rotatably mounted on the upper frame 101 is operatively connected to the rod 119 by way of the key 121 and the key groove 119a.
  • the gear wheel 122 meshes with a pinion 124 adapted to be rotated by means of a driving device 123 fixedly mounted on the upper frame 101. Owing to the arrangement in accordance with this embodiment as described above it is assured that the rod 119 is displaced u p and down while the positional relation relative to the arms 115 is maintained irrespective of how the position of the male threaded rod 116 is displaced by means of the driving device 113.
  • reference numeral 118 designates a guide bearing.
  • the spacer 108 in the fourth embodiment is replaced with the working cylinder 107 in this embodiment adapted to turn away from or toward the position located in vertical alignment with the die and therefore the substantially same functional effects as those in the fourth embodiment are obtainable.
  • this embodiment will be preferably employable in case when there is necessity for providing a space in which a centering mechanism is accomodated for vulcanizing operation at the central part of the raising and lowering table 106 and therefore the arrangement in accordance with the fourth embodiment cannot be achieved.
  • the working cylinder 107 is adapted to turn away from or toward the posotion located in vertical alignment with the die but this embodiment consists in that an arrangement is made such that a spacer 108 is fixedly mounted on the raising and lowering table 106, a working cylinder 107 is attached to the upper end of said spacer 108 and a turnable distance plate 109 is disposed between the working cylinder 107 and the male threaded rod 116.
  • this embodiment assures the substantially same fucntional effects as those in the fifth embodiment and in addition to this there is no fear of causing damage or injury on hydraulic liquid supply hoses as is often the case with the foregoing fifth embodiment where the working cylinder 107 is adapted to turn at the upper part of the vulcanizing press.
  • the vulcanizing press includes a distance plate 109 as is the case with the foregoing sixth embodiment and a different thing from the sixth embodiment consists in that the working cylinder 107 is constructed in the doughnut-shaped configuration and fixedly secured to the male threaded rod 116 but functional effecets are substantially same as those in the sixth embodiment
  • the present invention has been described with respect to the fourth to seventh embodiments each of which consists in that a spacer 108 and a working cylinder are arranged at the central part of a vulcanizing press.
  • a plurality of spacers and a plurality of working cylinders may be arranged as required.
  • a die thickness adjusting means 110 is disposed in the proximity of the upper frame 101 but the present invention should not be limited only to this.
  • the die thickness adjusting means 110 may be interposed between the lower die half 104 and the lower frame 102 while the working cylinder 107, the spacer 108 and the distance plates 108 are arranged at the upper part of the vulcanizing press.
  • a vulcanizing press in accordance with this embodiment is constructed in a frame type tire vulcanizing press and includes an upper frame 201, a lower frame 202 and side frames 204 by way of which said upper frame 201 and said lower frame 202 are connected to one another.
  • a lower die half 204 is fixedly mounted on the lower frame 202 and an upper die half 205 is fixedly secured to the raising and lowering table 206 so that said upper die half 205 is displaced away from or toward said lower die half.
  • a pair of working cylinders 207 and a pair of spacers 208 are arranged between the upper frame 201 and the raising and lowering table 206.
  • the spacers 208 are fixedly attached to the raising and lowering table 206 and extend upward therefrom, whereas the working cylinders 207 are turnably supported on the upper frame 201 so that they are displaced to the position located outward of the side frame 203 so as not to prevent upward movement of the raising and lowering table 206 and the spacers 208.
  • the spacers 208 are designed to expand or contract according to the required height in order to make an adjustment corresponding to the thickness of a die to be mounted.
  • the pair of working cylinders 207 are turnably supported below the upper frame 201 so as to assume the first position where upward movement of the spacers 208 is inhibited as illustrated in Fig. 13 and the second position located outward of the side frame 203 where no upward movement of the spacers 208 is inhibited in a reciprocable manner.
  • an arm 209 adapted to carry the working cylinders 207 at both the free ends thereof is fixedly fitted onto a shaft 210 with the aid of a key 211 received in an axially extending key groove 210a in such a manner as to move up or down as required, said shaft 210 being rotatably supported on the upper frame 201 while extending therethrough.
  • the shaft 210 is formed with a flange 210b at the middle part thereof and a compressive coil spring 212 is disposed between the flange 210b and the boss 209a of the arm 209 whereby the working cylinders 207 are displaced by an appreciable distance when the spacers 208 are caused to expand upward so as to eliminate clearance and moreover they resume their original position as their expansion is released.
  • the shaft 210 includes a gear wheel 213 on the upper surface of the upper frame 201, said gear wheel 213 meshing with a pinion 215 adapted to be rotated by means of a driving device 214 fixedly mounted on the upper frame 201. Accordingly, the working cylinders 207 can assume the first and second positions sa required by way of turning movement, as long as a certain clearance is existent between the bottom of the working cylinders 207 and the upper end surface of the spacers 208.
  • the working cylinders 207 initiate their operation simultaneously. Alternatively, they may be actuated separately. Further, in the illustrated embodiment two working cylinders 207 are provided for one set of die but a single or three or more than three working cylinders may be employed.
  • Reference numeral 216 designates a female threaded sleeve which is screw fitted onto the male threaded portion 217a of a hollow shaft 217.
  • a rod 218 is firmly fitted to the female threaded sleeve 216 in accordance with a hitherto known method so that it is movably held in the hollow space of the hollow shaft 217 by means of a bearing 219 so as to rotate and moreover move up and down therein while it is guided with the aid of said bearing 219 fitted into the hollow shaft 217.
  • the rod 218 includes a bearing 220 fitted into the hollow portion thereof, said bearing 220 serving to slidably guide a driving shaft 222 in the axial direction which is rotatably supported on a base 221 with the aid of conventional means (said driving shaft 222 being held so as not to move in the vertical direction).
  • the driving shaft 222 is formed with an axially extending key groove 222a adapted to receive a key 223 therein which is fitted to the inner wall of the hollow portion of the rod 218 with the aid of conventional means.
  • a pinion 224 is fixedly secured to the lower end part of the driving shaft 222 with the aid of conventional means so that it meshes with another pinion 225 which is exposed to the outside through a cutout opening on the junction portion between the hollow shaft 217 and the base 221. Further, the pinion 225 meshes with a gear wheel 226 which is supported rotably about the axis Z - Z located at the center of the raising and lowering table 206, said gear wheel 226 meshing with a pinion 228 fitted onto the output shaft of a driving device 227 which is fixedly mounted at the predetermined position on the raising and lowering table 206.
  • the gear wheel 226 is caused to rotate whereby the driving shaft 222 is rotated by way of the pinions 224 and 225.
  • the female threaded sleeve 216 operatively connected to the driving shaft 222 by means of the key 223 is then rotated so that the working height of the spacer 208 can be adjusted as required.
  • the rod 218 is raised up or lowered without any hindrance encountered, because the key 223 fitted to the rod 218 is adapted to move up or down along the vertically extending long key groove 222a.
  • a plurality of spacers 208 arranged on a circular track about the gear wheel 226 are caused to expand or contract simultaneously.
  • the spacers 208 are driven by the gear wheel 226 for their expansive or contractive movement.
  • the pinion 225 may mesh directly with the pinion 228 on the output shaft from the driving device 227 in case of a small type vulcanizing press including a single spacer 208 mounted thereon.
  • Next vulcanizing operation is carried out by way of the steps of loading a green tire on the lower die half 204, causing the raising and lowering table 206 to be lowered together with the upper die half 205 until the latter is placed on the lower die half 204 in the closed state, causing the working cylinders 207 to resume the first position by turning movement, expanding the spacers 208 by a predetermined distance until clearance between the upper frame 201 and the working cylinders 207 as well as the working cylinders 207 and the spacers 208 disappears and finally actuating the working cylinders 207 so as to tightly close both the upper and lower die halves by depressing force transmitted via the spacers 208 and the raising and lowering table 206.
  • the limitative position at expansive or contractive movement of the spacers 208 can be detected by detecting rotation of the pinion 225, the gear wheel 226 or the pinion 228 with the aid of a pulse generator or the like means so as to stop operation of the driving device 227. Further, in case when a die is replaced with another die having a different thickness adjustment can be made merely by changing a preset value of the pulse generator.
  • each of the working cylinders 207' is designed in a doughnut-shaped cylinder with a hole formed thereon of which inner diameter is dimensioned larger than the outer diameter of the spacers 208.
  • a doughnut-shaped working cylinder 207' may be replaced with a plurality of working cylinders 260 of which actuating rod is operatively connected to a doughnut-shaped circular plate 250 as schematically illustrated in Fig. 16.
  • the distance plates 230 are displaced from the operative position to the inoperative one and vice versa by turning movement with the aid of the substantially same turning mechanisn as illustrated in Fig. 15.
  • the working cylinders 207 on the arm 209 in the foregoing embodiment are replaced with the distance plates 230 in this embodiment.
  • This embodiment is identical to the foregoing one in structure and function with the exception that the working cylinders 207' or a combination of the doughnut-shaped circular plates 250 and the working cylinders 260 are fixedly mounted on the upper frame 201 and the distance plates 230 are turnable instead of the working cylinders 207'.
  • the raising and lowering table 206 is raised up, each of the spacers 208 moves upward through a hole on the doughnut-shaped working cylinders 207' or the doughnut-shaped circular plates 250.
  • the vulcanizing press in accordance with the present invention has the following characterizing features.

Landscapes

  • Physics & Mathematics (AREA)
  • Health & Medical Sciences (AREA)
  • Oral & Maxillofacial Surgery (AREA)
  • Thermal Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Heating, Cooling, Or Curing Plastics Or The Like In General (AREA)
  • Moulds For Moulding Plastics Or The Like (AREA)
EP83730068A 1982-07-13 1983-07-05 Reifenvulkanisierpresse Expired EP0099327B1 (de)

Applications Claiming Priority (6)

Application Number Priority Date Filing Date Title
JP121572/82 1982-07-13
JP57121572A JPS5912827A (ja) 1982-07-13 1982-07-13 タイヤ加硫プレス
JP12260682A JPS5912828A (ja) 1982-07-14 1982-07-14 タイヤ加硫プレス
JP122606/82 1982-07-14
JP127847/82 1982-07-22
JP12784782A JPS5919139A (ja) 1982-07-22 1982-07-22 タイヤ加硫プレス

Publications (2)

Publication Number Publication Date
EP0099327A1 true EP0099327A1 (de) 1984-01-25
EP0099327B1 EP0099327B1 (de) 1987-02-04

Family

ID=27314273

Family Applications (1)

Application Number Title Priority Date Filing Date
EP83730068A Expired EP0099327B1 (de) 1982-07-13 1983-07-05 Reifenvulkanisierpresse

Country Status (4)

Country Link
EP (1) EP0099327B1 (de)
KR (1) KR860001131B1 (de)
CS (1) CS257770B2 (de)
DE (1) DE3369657D1 (de)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113580434A (zh) * 2020-04-30 2021-11-02 华澳轮胎设备科技(苏州)股份有限公司 一种群控硫化机组

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3870443A (en) * 1973-04-17 1975-03-11 Frid Krupp Ges Mit Beschrankte Hot-pressing system
DE2531383A1 (de) * 1974-07-18 1976-01-29 Pirelli Presse zum vulkanisieren von kautschukgegenstaenden
US4130384A (en) * 1977-11-09 1978-12-19 Macmillan Kenneth T Tire curing press
US4212605A (en) * 1979-04-23 1980-07-15 Donald Macmillan & Son, Inc. Molding machine with expandable chamber and locking means

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3870443A (en) * 1973-04-17 1975-03-11 Frid Krupp Ges Mit Beschrankte Hot-pressing system
DE2531383A1 (de) * 1974-07-18 1976-01-29 Pirelli Presse zum vulkanisieren von kautschukgegenstaenden
US4130384A (en) * 1977-11-09 1978-12-19 Macmillan Kenneth T Tire curing press
US4212605A (en) * 1979-04-23 1980-07-15 Donald Macmillan & Son, Inc. Molding machine with expandable chamber and locking means

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113580434A (zh) * 2020-04-30 2021-11-02 华澳轮胎设备科技(苏州)股份有限公司 一种群控硫化机组

Also Published As

Publication number Publication date
KR860001131B1 (ko) 1986-08-16
KR840005393A (ko) 1984-11-12
CS530383A2 (en) 1987-11-12
EP0099327B1 (de) 1987-02-04
DE3369657D1 (en) 1987-03-12
CS257770B2 (en) 1988-06-15

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